REFEREED JOURNAL ARTICLES:

Environmental and boundary layer characteristics associated with intensity change of hurricanes under high fullness

Typhoon Airborne Observational Field Campaigns in the Western North Pacific: Successes and Future Prospects.

Understanding the diversity of shear-relative convective patterns of rapidly-intensifying tropical cyclones.

High Revisit Rate Tropical Cyclone Observations from the NASA TROPICS Constellation Mission. Proceedings of the IEEE: Special Issue on Satellite Remote Sensing of the Earth

Precipitation Retrieval from Geostationary Satellite Data Based on a New QPE Correction Algorithm.

Are rapidly intensifying tropical cyclones associated with unique vortex and convective characteristics?

Shear-relative asymmetric kinematic characteristics of intensifying hurricanes as observed by airborne Doppler radar

An Observational Analysis of the Relationship between Tropical Cyclone Vortex Tilt, Precipitation Structure, and Intensity Change.

Appreciation of Peer Reviewers for 2023

Aircraft Observations of Tropical Cyclone Boundary Layer Kinematic Structure and Evolution During Landfall.

On the Distribution of Convective and Stratiform Precipitation in Tropical Cyclones from Airborne Doppler Radar and its Relationship to Intensity Change and Environmental Wind Shear Direction

The NCAR GPS Dropwindsonde and its Impact on Hurricane Operations and Research.

Research Advances on Internal Processes Affecting Tropical Cyclone Intensity Change from 2018-2022.

The World Meteorological Organization Tenth International Workshop on Tropical Cyclones (IWTC-10): A Summary.

Thermodynamic contribution to vortex alignment and rapid intensification of Hurricane Sally (2020).

The Mean Kinematic Structure of the Tropical Cyclone Boundary Layer and Its Relationship to Intensity Change.

The shear-relative variation of inflow angle and its relationship to tropical cyclone intensification.

An Analysis of Tropical Cyclone Vortex and Convective Characteristics in Relation to Storm Intensity using a Novel Airborne Doppler Radar Database.

Examining Terrain Effects on the Evolution of Precipitation and Vorticity of the Landfalling Tropical Cyclone Fanapi (2010) near Taiwan.

Observed Processes Underlying the Favorable Vortex Repositioning Early in the Development of Hurricane Dorian

Accomplishments of NOAA's Airborne Hurricane Field Program and a Broader Future Approach to Forecast Improvement.

Recent advances in our understanding of tropical cyclone intensity change processes from airborne observations.

Impact of TROPICS Radiances on Tropical Cyclone Prediction in an OSSE.

A Tale of Two Rapidly-Intensifying Supertyphoons: Hagibis (2019) and Haiyan (2013).

Boundary Layer Recovery and Precipitation Symmetrization Preceding Rapid Intensification of Tropical Cyclones under Shear.

The Rapid Intensification of Hurricane Michael (2018): Storm Structure and the Relationship to Environmental and Air-Sea Interactions.

A review and evaluation of planetary boundary layer parameterizations in HWRF using idealized simulations and observations.

Precipitation Processes and Vortex Alignment during the Intensification of a Weak Tropical Cyclone in Moderate Vertical Shear.

The Rapid Intensification and Eyewall Replacement Cycles of Hurricane Irma (2017).

Assessing the Influence of Convective Downdrafts and Surface Enthalpy Fluxes on Tropical Cyclone Intensity Change in Moderate Vertical Wind Shear.

Observed Kinematic and Thermodynamic Structure in the Hurricane Boundary Layer during Intensity Change.

Axisymmetric potential vorticity evolution of Hurricane Patricia (2015)

Repeated Eyewall Replacement Cycles in Hurricane Frances (2004).

Effects of parameterized boundary layer structure on hurricane rapid intensification in shear.

Hurricane Bonnie (1998): Maintaining Intensity during High Vertical Wind Shear and an Eyewall Replacement Cycle.

Dynamics of the transition from spiral rainbands to a secondary eyewall in Hurricane Earl (2010).

The World Meteorological Organization’s Fourth International Workshop on Tropical Cyclone Landfall Processes (IWTCLP-IV): A Summary.

Recent Advances in Research and Forecasting of Tropical Cyclone Rainfall.

Recent Advances in Research and Forecasting of Tropical Cyclone Track, Intensity, and Structure at Landfall.

The relationship between spatial variations in the structure of convective bursts and tropical cyclone intensification as determined by airborne Doppler radar.

Evaluating the Impact of Improvement in the Horizontal Diffusion Parameterization on Hurricane Prediction in the Operational Hurricane Weather Research and Forecast (HWRF) Model.

Azimuthal Distribution of Deep Convection, Environmental Factors, and Tropical Cyclone Rapid Intensification: A Perspective from HWRF Ensemble Forecasts of Hurricane Edouard (2014).

BOOK AND ENCYCLOPEDIA CHAPTERS:

Predicting the Weather: A Partnership of Observation Scientists and Forecasters. Chapter in: Springer, Editors. Towards the ‘perfect’ weather warning: bridging disciplinary gaps through partnership and communication

Tropical Cyclones and Hurricanes: Observations.  Reference Module in Earth Systems and Environmental Sciences

Encyclopedia of Hydrological Sciences.